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Dynamic electronic institutions in agent oriented cloud robotic systems.

Nagrath V, Morel O, Malik A, Saad N, Meriaudeau F - Springerplus (2015)

Bottom Line: In Dynamic Electronic Institutions, the process of formation, reformation and dissolution of institutions is automated leading to run time adaptations in groups of agents.DEIs in agent oriented cloud robotic ecosystems bring order and group intellect.This article presents DEI implementations through HTM5 methodology.

View Article: PubMed Central - PubMed

Affiliation: Laboratoire Le2i, UMR CNRS 6306, Le Creusot, 71200 France.

ABSTRACT
The dot-com bubble bursted in the year 2000 followed by a swift movement towards resource virtualization and cloud computing business model. Cloud computing emerged not as new form of computing or network technology but a mere remoulding of existing technologies to suit a new business model. Cloud robotics is understood as adaptation of cloud computing ideas for robotic applications. Current efforts in cloud robotics stress upon developing robots that utilize computing and service infrastructure of the cloud, without debating on the underlying business model. HTM5 is an OMG's MDA based Meta-model for agent oriented development of cloud robotic systems. The trade-view of HTM5 promotes peer-to-peer trade amongst software agents. HTM5 agents represent various cloud entities and implement their business logic on cloud interactions. Trade in a peer-to-peer cloud robotic system is based on relationships and contracts amongst several agent subsets. Electronic Institutions are associations of heterogeneous intelligent agents which interact with each other following predefined norms. In Dynamic Electronic Institutions, the process of formation, reformation and dissolution of institutions is automated leading to run time adaptations in groups of agents. DEIs in agent oriented cloud robotic ecosystems bring order and group intellect. This article presents DEI implementations through HTM5 methodology.

No MeSH data available.


3F life cycle of a dynamic electronic institution. The three phases are in order: Formation, Foundation and Fulfilment. Re-Formation and Re-Foundation processes are also within the 3F life cycle.
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Fig4: 3F life cycle of a dynamic electronic institution. The three phases are in order: Formation, Foundation and Fulfilment. Re-Formation and Re-Foundation processes are also within the 3F life cycle.

Mentions: The term Dynamic Electronic Institutions first appeared in the roadmap for agent technology (Luck et al. 2003). Dynamic Electronic Institutions are Electronic Institutions where formation, reformation and dissolution of institutions are automated processes. The norms and objectives of institutionalization are dynamically adapting to the needs of its member agents. Figure 4 shows the 3-F life cycle of an institution proposed in recent works (Muntaner-Perich and Rosa Esteva 2007;2008). Re-Formation and Re-Foundation processes are also incorporated in the 3-F life cycle.


Dynamic electronic institutions in agent oriented cloud robotic systems.

Nagrath V, Morel O, Malik A, Saad N, Meriaudeau F - Springerplus (2015)

3F life cycle of a dynamic electronic institution. The three phases are in order: Formation, Foundation and Fulfilment. Re-Formation and Re-Foundation processes are also within the 3F life cycle.
© Copyright Policy - open-access
Related In: Results  -  Collection

License
Show All Figures
getmorefigures.php?uid=PMC4352161&req=5

Fig4: 3F life cycle of a dynamic electronic institution. The three phases are in order: Formation, Foundation and Fulfilment. Re-Formation and Re-Foundation processes are also within the 3F life cycle.
Mentions: The term Dynamic Electronic Institutions first appeared in the roadmap for agent technology (Luck et al. 2003). Dynamic Electronic Institutions are Electronic Institutions where formation, reformation and dissolution of institutions are automated processes. The norms and objectives of institutionalization are dynamically adapting to the needs of its member agents. Figure 4 shows the 3-F life cycle of an institution proposed in recent works (Muntaner-Perich and Rosa Esteva 2007;2008). Re-Formation and Re-Foundation processes are also incorporated in the 3-F life cycle.

Bottom Line: In Dynamic Electronic Institutions, the process of formation, reformation and dissolution of institutions is automated leading to run time adaptations in groups of agents.DEIs in agent oriented cloud robotic ecosystems bring order and group intellect.This article presents DEI implementations through HTM5 methodology.

View Article: PubMed Central - PubMed

Affiliation: Laboratoire Le2i, UMR CNRS 6306, Le Creusot, 71200 France.

ABSTRACT
The dot-com bubble bursted in the year 2000 followed by a swift movement towards resource virtualization and cloud computing business model. Cloud computing emerged not as new form of computing or network technology but a mere remoulding of existing technologies to suit a new business model. Cloud robotics is understood as adaptation of cloud computing ideas for robotic applications. Current efforts in cloud robotics stress upon developing robots that utilize computing and service infrastructure of the cloud, without debating on the underlying business model. HTM5 is an OMG's MDA based Meta-model for agent oriented development of cloud robotic systems. The trade-view of HTM5 promotes peer-to-peer trade amongst software agents. HTM5 agents represent various cloud entities and implement their business logic on cloud interactions. Trade in a peer-to-peer cloud robotic system is based on relationships and contracts amongst several agent subsets. Electronic Institutions are associations of heterogeneous intelligent agents which interact with each other following predefined norms. In Dynamic Electronic Institutions, the process of formation, reformation and dissolution of institutions is automated leading to run time adaptations in groups of agents. DEIs in agent oriented cloud robotic ecosystems bring order and group intellect. This article presents DEI implementations through HTM5 methodology.

No MeSH data available.